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Volcanic eruptions eject sulfur dioxide, which is converted to sulfuric acid, which then reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject sulfur dioxide, which is converted to sulfuric acid, which then reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject water vapor, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject water vapor, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject carbon dioxide, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject carbon dioxide, which reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
Volcanic eruptions eject tsunamis, which reflect incoming energy from the sun back to space, therefore cooling the surface of Earth.
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The correct response is:
Volcanic eruptions eject sulfur dioxide, which is converted to sulfuric acid, which then reflects incoming energy from the sun back to space, therefore cooling the surface of Earth.
This statement accurately describes how the sulfur dioxide released during volcanic eruptions can lead to the formation of aerosol particles in the atmosphere, which can reflect sunlight and result in temporary cooling effects on Earth's surface.
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